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Composite materials
Living textile biocomposites deliver enhanced carbon dioxide capture
Over 110 million tonnes of textile fibres and apparel are produced annually, ultimately ending with significant quantities of waste …
Pichaya In-Na
,
Jonathan Lee
,
Gary Caldwell
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Immobilising microalgae and cyanobacteria as biocomposites: New opportunities to intensify algae biotechnology and bioprocessing
There is a groundswell of interest in applying phototrophic microorganisms, specifically microalgae and cyanobacteria, for …
Gary S. Caldwell
,
Pichaya In-Na
,
Rachel Hart
,
Elliot Sharp
,
Assia Stefanova
,
Matthew Pickersgill
,
Matthew Walker
,
Matthew Unthank
,
Justin Perry
,
Jonathan G. M. Lee
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DOI
URL
Photosynthetic textile biocomposites: Using laboratory testing and digital fabrication to develop flexible living building materials
Urban development and the construction industry account for a considerable proportion of global carbon dioxide (CO2) emissions. …
Assia Stefanova
,
Pichaya In-Na
,
Gary Stephen Caldwell
,
Ben Bridgens
,
Rachel Armstrong
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Architectural Laboratory Practice for the Development of Clay and Ceramic-Based Photosynthetic Biocomposites
This study outlines the development of clay and ceramic-based living biocomposite materials under minimal moisture environments. The …
Assia Stefanova
,
Ben Bridgens
,
Pichaya In-Na
,
Gary Caldwell
,
Rachel Armstrong
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DOI
URL
Loofah-based microalgae and cyanobacteria biocomposites for intensifying carbon dioxide capture
Microalgae and cyanobacteria have been evaluated for biological CO2 capture from flue gases for over 40 years; however, commercial open …
Pichaya In-Na
,
Abbas A. Umar
,
Adam D. Wallace
,
Michael C. Flickinger
,
Gary S. Caldwell
,
Jonathan G.M. Lee
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DOI
URL
Algae biocomposites for carbon capture and storage
Microalgae technology has been used to capture CO2 from flue gases, but the current commercial algae open pond systems have many …
Pichaya In-Na
,
Abbas A. Umar
,
Adam D. Wallace
,
Michael C. Flickinger
,
Gary S. Caldwell
,
Jonathan G.M. Lee
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